Ursula Germann - Academia.edu (original) (raw)

Papers by Ursula Germann

Research paper thumbnail of Fusion proteins useful for measuring protease activity

Research paper thumbnail of Gene Therapy Using Gene Fusions for Genetic or Acquired Disorders

Research paper thumbnail of Fusion proteins, DNA molecules, vectors, and host cells useful for measuring protease activity

Research paper thumbnail of A Novel Ranking System for Identifying Efficacious Anti-Influenza PB2 Inhibitors

Antimicrobial agents and chemotherapy, Jan 13, 2015

Through antigenic drift and shift, influenza (flu) viral infections continue to be an annual caus... more Through antigenic drift and shift, influenza (flu) viral infections continue to be an annual cause of morbidity in healthy populations and mortality among the elderly and at risk patients. The emergence of highly pathogenic avian influenza viruses like H5N1 and H7N9 and the rapid spread of the swine origin H1N1 influenza virus in 2009 demonstrate the continued need for effective influenza therapeutics. While several neuraminidase inhibitors have been developed for the treatment of influenza virus infections, these have shown a limited start-to-treat window and resistant variants have shown up in the population. In addition, an older class of influenza antiviral drugs, the adamantanes, are no longer recommended for treatment due to widespread resistance.There remains a need for new influenza therapeutics with improved efficacy as well as an expanded window for the initiation of treatment. Azaindole compounds targeting the influenza A virus PB2 protein that demonstrate excellent in vi...

Research paper thumbnail of Molecular analysis of the multidrug transporter, P-glycoprotein

Cytotechnology, 1998

Inherent or acquired resistance of tumor cells to cytotoxic drugs represents a major limitation t... more Inherent or acquired resistance of tumor cells to cytotoxic drugs represents a major limitation to the successful chemotherapeutic treatment of cancer. During the past three decades dramatic progress has been made in the understanding of the molecular basis of this phenomenon. Analyses of drug-selected tumor cells which exhibit simultaneous resistance to structurally unrelated anti-cancer drugs have led to the discovery of the human MDR1 gene product, P-glycoprotein, as one of the mechanisms responsible for multidrug resistance. Overexpression of this 170 kDa N-glycosylated plasma membrane protein in mammalian cells has been associated with ATP-dependent reduced drug accumulation, suggesting that P-glycoprotein may act as an energy-dependent drug efflux pump. P-glycoprotein consists of two highly homologous halves each of which contains a transmembrane domain and an ATP binding fold. This overall architecture is characteristic for members of the ATP-binding cassette or ABC superfami...

Research paper thumbnail of Construction and characterization of a selectable multidrug resistance-glucocerebrosidase fusion gene

Cytokines and molecular therapy, 1996

Gene fusions can be employed to ensure concomitant expression of two different proteins under the... more Gene fusions can be employed to ensure concomitant expression of two different proteins under the same transcriptional control elements. We have synthesized a retroviral expression vector (pHaMG1) containing a human multidrug resistance (MDR1)-glucocerebrosidase (GC) chimeric gene inserted between the long terminal repeats of the Harvey murine sarcoma virus. When introduced into psi-CRE mouse fibroblasts, pHaMG1 conferred the drug-selectable multidrug resistance phenotype, and drug-resistant clones produced active human GC of about 60 kDa. Percoll gradient fractionation of homogenates prepared from transfectants confirmed correct targeting of P-glycoprotein to the plasma membrane and of GC to lysosomes. Although this construction was designed as a translational fusion of the MDR1 gene product, P-glycoprotein, and human GC, no evidence for a fusion protein was found in transfected cells, and an analysis of the RNAs transcribed from the integrated pHaMG1 retroviral vector suggests tha...

Research paper thumbnail of P-glycoproteins: mediators of multidrug resistance

Seminars in cell biology, 1993

Multidrug resistance represents a major obstacle to successful chemotherapy of metastatic disease... more Multidrug resistance represents a major obstacle to successful chemotherapy of metastatic disease. Elevated levels in cancer cells of the product of the multidrug resistance gene, P-glycoprotein or the multidrug transporter, have been associated with the development of simultaneous resistance to a great variety of amphiphilic cytotoxic drugs. P-glycoprotein is an integral plasma membrane protein which contains 12 putative transmembrane regions and two ATP binding sites. It confers multidrug resistance by functioning as an energy-dependent drug efflux pump. Here we describe recent studies on the biosynthesis, structure, function, and mechanism of action of P-glycoprotein which have provided insights into the complexity of this multifunctional transport system and revealed an additional chloride channel activity. The physiological role of P-glycoprotein, however, still remains to be elucidated.

Research paper thumbnail of Interaction of bioactive hydrophobic peptides with the human multidrug transporter

FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 1994

In this report we demonstrate that various biologically active hydrophobic peptide derivatives, e... more In this report we demonstrate that various biologically active hydrophobic peptide derivatives, e.g., proteinase inhibitors, chemoattractants, ionophores, enkephalins, and immunosuppressants, stimulate a membrane ATPase activity associated with the human multidrug transporter (MDR1). The stimulation of the MDR1-ATPase by these agents does not correlate with their known biochemical or pharmacological activities but rather with their hydrophobicity. The peptides that show high-affinity interaction with the MDR1-ATPase also interfere strongly with fluorescent dye extrusion catalyzed by the multidrug transporter in intact cells and some have been shown to reverse drug resistance in cultured cells. These data suggest that several hydrophobic peptides behave as substrates of the multidrug transporter and may be used to modulate the chemotherapy resistance of tumor cells.

Research paper thumbnail of Retroviral transfer of a chimeric multidrug resistance-adenosine deaminase gene

FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 1990

A fusion between a selectable multidrug resistance (MDR1) cDNA and an adenosine deaminase (ADA) c... more A fusion between a selectable multidrug resistance (MDR1) cDNA and an adenosine deaminase (ADA) cDNA concomitantly confers multidrug resistance and ADA activity on transfected cells. We have produced a Harvey murine sarcoma virus-derived, replication-defective, recombinant retrovirus to transduce this chimeric MDR-ADA gene efficiently into a great variety of cells. Infection with the MDR-ADA retrovirus conferred the multidrug resistance phenotype on drug-sensitive cells, therefore allowing selection in the presence of colchicine. Colchicine-resistant cells synthesized large amounts of a membrane-associated 210-kDa MDR-ADA fusion protein that preserved both MDR and ADA functional activities. To monitor expression of the chimeric gene in vivo, Kirsten virus-transformed NIH cells were infected with the MDR-ADA retrovirus, and after drug-selection, injected into athymic nude mice. Tumors developed that contained the bifunctionally active MDR-ADA fusion protein. When these mouse tumor ce...

Research paper thumbnail of A case study to illustrate a potential challenge for preclinical hypotension risk assessment by cardiovascular telemetry in conscious, normotensive rats in advance of definitive large animal telemetry studies

Journal of Pharmacological and Toxicological Methods, 2013

Research paper thumbnail of Characterization of Phosphorylation-defective Mutants of Human P-glycoprotein Expressed in Mammalian Cells

Journal of Biological Chemistry, 1996

To assess the role of phosphorylation of the human multidrug resistance MDR1 gene product P-glyco... more To assess the role of phosphorylation of the human multidrug resistance MDR1 gene product P-glycoprotein for its drug transport activity, phosphorylation sites within its linker region were subjected to mutational analysis. We constructed a 5A mutant, in which serines at positions 661, 667, 671, 675, and 683 were replaced by nonphosphorylatable alanine residues, and a 5D mutant carrying aspartic acid residues at the respective positions to mimic permanently phosphorylated serine residues. Transfection studies revealed that both mutants were targeted properly to the cell surface and conferred multidrug resistance by diminishing drug accumulation. In contrast to wild-type P-glycoprotein, the overexpressed 5A and the 5D mutants exhibited no detectable levels of phosphorylation, either in vivo following metabolic labeling of cells with [32P]orthophosphate or in vitro in phosphorylation assays with protein kinase C, cAMP-dependent protein kinase, or a P-glyco-protein-specific protein kinase purified from multidrug-resistant KB-V1 cells. These results reconfirm that the major P-glycoprotein phosphorylation sites are located within the linker region. Furthermore, the first direct evidence is provided that phosphorylation/dephosphorylation mechanisms do not play an essential role in the establishment of the multidrug resistance phenotype mediated by human P-glycoprotein.

Research paper thumbnail of Effects of phosphorylation of P-glycoprotein on multidrug resistance

Journal of Bioenergetics and Biomembranes, 1995

Cells expressing elevated levels of the membrane phosphoprotein P-glycoprotein exhibit a multidru... more Cells expressing elevated levels of the membrane phosphoprotein P-glycoprotein exhibit a multidrug resistance phenotype. Studies involving protein kinase activators and inhibitors have implied that covalent modification of P-glycoprotein by phosphorylation may modulate its biological activity as a multidrug transporter. Most of these reagents, however, have additional mechanisms of action and may alter drug accumulation within multidrug resistant cells independent of, or in addition to, their effects on the state of phosphorylation of P-glycoprotein. The protein kinase(s) responsible for P-glycoprotein phosphorylation has(ve) not been unambiguously identified, although several possible candidates have been suggested. Recent biochemical analyses demonstrate that the major sites of phosphorylation are clustered within the linker region that connects the two homologous halves of P-glycoprotein. Mutational analyses have been initiated to confirm this finding. Preliminary data obtained from phosphorylation- and dephosphorylation-defective mutants suggest that phosphorylation of P-glycoprotein is not essential to confer multidrug resistance.

Research paper thumbnail of Putative “MDR enhancer” is located on human chromosome 20 and not linked to theMDRI gene on chromosome 7

Genes, Chromosomes and Cancer, 1994

ABSTRACT The physiologic expression of the human multidrug resistance MDRI gene product P-glycopr... more ABSTRACT The physiologic expression of the human multidrug resistance MDRI gene product P-glycoprotein is controlled in a tissue- and cell-specific manner, but the regulatory mechanisms have not been characterized in great detail. Studies by Kohno et al. [(1990) J Biol Chem 265:19690–19696] suggested that a tissue-specific enhancer element located approximately 10 kb upstream from the major MDRI transcription start site may act to increase the levels of transcription in cultured adrenal and kidney cells. Using this putative “MDR enhancer” as a probe, we isolated a 14 kb DNA fragment from a genomic DNA library prepared from human fetal liver. The restriction map and partial nucleotide sequence of this DNA fragment were consistent with the previously described data obtained for a similar piece of genomic DNA derived from human placenta by Kohno et al. (ibid.). Pulsed-field gel electrophoresis of large genomic DNA fragments, however, showed that the DNA sequences, including the putative “MDR enhancer,” were not linked to the MDRI gene. Fluorescence in situ hybridization analysis revealed that this enhancer-like element is located on chromosome 20 at band q13.1 and is, therefore, distinct from the MDR locus on chromosome 7, band q21.1. Thus, this putative regulatory element does not modulate the tissue specificity of expression of the MDRI gene in vivo, but may play a role in the regulation of expression of another, so far unknown gene. Genes Chromosom Cancer 10:267–274 (1994). © 1994 Wiley-Liss, Inc.

Research paper thumbnail of Expression of the human multidrug transporter in insect cells by a recombinant baculovirus

Biochemistry, 1990

The plasma membrane associated human multidrug resistance (MDR1) gene product, known as the 170-k... more The plasma membrane associated human multidrug resistance (MDR1) gene product, known as the 170-kDa P-glycoprotein or the multidrug transporter, acts as an ATP-dependent efflux pump for various cytotoxic agents. We expressed recombinant human multidrug transporter in a baculovirus expression system to obtain large quantities and further investigate its structure and mechanism of action. MDRl cDNA was inserted into the genome of the Autographa californica nuclear polyhedrosis virus under the control of the polyhedrin promoter. Spodoptera frugiperda insect cells synthesized high levels of recombinant multidrug transporter 2-3 days after infection. The transporter was localized by immunocytochemical methods on the external surface of the plasma membranes, in the Golgi apparatus, and within the nuclear envelope. The human multidrug transporter expressed in insect cells is not susceptible to endoglycosidase

Research paper thumbnail of Bacterial expression of the linker region of human MDR1 P-glycoprotein and mutational analysis of phosphorylation sites

Biochemistry, 1995

Phosphorylation may play a role in modulating multidrug resistance by P-glycoprotein (P-gp). The ... more Phosphorylation may play a role in modulating multidrug resistance by P-glycoprotein (P-gp). The linker region between the two homologous halves of human P-gp harbors several serine residues which are phosphorylated by protein kinase C (PKC) in vitro. We used the glutathione S-transferase gene fusion system to express and purify a series of fusion proteins containing the relevant portion (residues 644-689) of the linker region of the human MDR1 gene product. The fusion proteins were subjected to in vitro phosphorylation and phosphopeptide mapping analysis to identify specific phosphorylation sites. On the basis of a mutational strategy in which individual serine residues were systematically replaced with nonphosphorylatable alanine residues, Ser-661 and Ser-667 were identified as major PKC sites and Ser-683 was identified as a minor PKC site. Ser-661 and Ser-667 were also found to be the primary sites of phosphorylation for a novel membrane-associated P-gp specific kinase isolated from the multidrug-resistant KB-V1 cell line. Individual phosphorylation sites were recognized independently of each other. These data show that the linker region of P-gp represents a target for multisite phosphorylation not only for PKC but also for the P-gp specific V1 kinase. Specific serine phosphorylation sites are identified, and evidence is presented that the V1 kinase has a specificity which overlaps, but is more restricted than, that of PKC. In addition, these studies also suggest that the use of GST fusion peptides may be applicable for the analysis of multisite and ordered protein phosphorylation in other systems.

Research paper thumbnail of Use of recombinant P-glycoprotein fragments to produce antibodies to the multidrug transporter

Biochemical and Biophysical Research Communications, 1990

Multidrug-resistance of human cancer cells may result from expression of a 170,000 dalton multidr... more Multidrug-resistance of human cancer cells may result from expression of a 170,000 dalton multidrug efflux pump called P-glycoprotein. To identify this multidrug transporter, and to study its structure and function, we have generated polyclonal rabbit antibodies against the amino-terminal and carboxy-terminal halves of the molecule using recombinant protein fragments produced in Escherichia coli. Two recombinant P-glycoprotein fragments, representing amino acids 140-228 and 919-1280, were overproduced in Escherichia coli by an inducible T7 expression system, gel-purified and injected into rabbits. Both antisera specifically immunoprecipitate 3H-azidopine and 35S-methionine labeled P-glycoprotein from multidrug-resistant cells and detect P-glycoprotein on Western blots with high sensitivity. Because these antisera were raised against epitopes in the amino- and carboxy-terminal halves of P-glycoprotein, they should be useful as research tools to define the function of these two halves of the molecule.

Research paper thumbnail of Cellular and biochemical characterization of VX-710 as a chemosensitizer

Anti-Cancer Drugs, 1997

VX-710 or (S)-N[2-Oxo-2-(3,4,5-trimethoxyphenyl)acetyl]-piperidine-2-carboxylic acid 1,7-bis(3-py... more VX-710 or (S)-N[2-Oxo-2-(3,4,5-trimethoxyphenyl)acetyl]-piperidine-2-carboxylic acid 1,7-bis(3-pyridyl)-4-heptyl ester, a novel non-macrocyclic ligand of the FK506-binding protein FKBP12, was evaluated for its ability to reverse P-glycoprotein-mediated multidrug resistance in vitro. VX-710 at 0.5-5 microM restored sensitivity of a variety of multidrug resistant cells to the cytotoxic action of doxorubicin, vincristine, etoposide or paclitaxel, including drug-selected human myeloma and epithelial carcinoma cells, and human MDR1 cDNA-transfected mouse leukemia and fibroblast cells. Uptake experiments showed that VX-710 at 0.5-2.5 microM fully restored intracellular accumulation of [14C]doxorubicin in multidrug resistant cells, suggesting that VX-710 inhibits the drug efflux activity of P-glycoprotein. VX-710 effectively inhibited photoaffinity labeling of P-glycoprotein by [3H]azidopine or [125I]iodoaryl azidoprazosin with EC50 values of 0.75 and 0.55 microM. Moreover, P-glycoprotein was specifically labeled by a tritiated photoaffinity analog of VX-710 and unlabeled VX-710 inhibited analog binding with an EC50 of 0.75 microM. VX-710 also stimulated the vanadate-inhibitable P-glycoprotein ATPase activity 2- to 3-fold in a concentration-dependent manner with an apparent k(a) of 0.1 microM. These data indicate that a direct, high-affinity interaction of VX-710 with P-glycoprotein prevents efflux of cytotoxic drugs by the MDR1 gene product in multidrug resistant tumor cells.

Research paper thumbnail of Preclinical profile of VX-710, a novel MDR chemosensitizer

Research paper thumbnail of Gene Transfer of Drug Resistance Genes Implications for Cancer Therapy

Annals of the New York Academy of Sciences, 1994

CAROL 0. CARDARELLIP AND IRA PASTANd bLaboratoty ofcell Biology, and dLaboratoty ofMokc&r B w h~

Research paper thumbnail of Inhibitors of Influenza Viruses Replication

Research paper thumbnail of Fusion proteins useful for measuring protease activity

Research paper thumbnail of Gene Therapy Using Gene Fusions for Genetic or Acquired Disorders

Research paper thumbnail of Fusion proteins, DNA molecules, vectors, and host cells useful for measuring protease activity

Research paper thumbnail of A Novel Ranking System for Identifying Efficacious Anti-Influenza PB2 Inhibitors

Antimicrobial agents and chemotherapy, Jan 13, 2015

Through antigenic drift and shift, influenza (flu) viral infections continue to be an annual caus... more Through antigenic drift and shift, influenza (flu) viral infections continue to be an annual cause of morbidity in healthy populations and mortality among the elderly and at risk patients. The emergence of highly pathogenic avian influenza viruses like H5N1 and H7N9 and the rapid spread of the swine origin H1N1 influenza virus in 2009 demonstrate the continued need for effective influenza therapeutics. While several neuraminidase inhibitors have been developed for the treatment of influenza virus infections, these have shown a limited start-to-treat window and resistant variants have shown up in the population. In addition, an older class of influenza antiviral drugs, the adamantanes, are no longer recommended for treatment due to widespread resistance.There remains a need for new influenza therapeutics with improved efficacy as well as an expanded window for the initiation of treatment. Azaindole compounds targeting the influenza A virus PB2 protein that demonstrate excellent in vi...

Research paper thumbnail of Molecular analysis of the multidrug transporter, P-glycoprotein

Cytotechnology, 1998

Inherent or acquired resistance of tumor cells to cytotoxic drugs represents a major limitation t... more Inherent or acquired resistance of tumor cells to cytotoxic drugs represents a major limitation to the successful chemotherapeutic treatment of cancer. During the past three decades dramatic progress has been made in the understanding of the molecular basis of this phenomenon. Analyses of drug-selected tumor cells which exhibit simultaneous resistance to structurally unrelated anti-cancer drugs have led to the discovery of the human MDR1 gene product, P-glycoprotein, as one of the mechanisms responsible for multidrug resistance. Overexpression of this 170 kDa N-glycosylated plasma membrane protein in mammalian cells has been associated with ATP-dependent reduced drug accumulation, suggesting that P-glycoprotein may act as an energy-dependent drug efflux pump. P-glycoprotein consists of two highly homologous halves each of which contains a transmembrane domain and an ATP binding fold. This overall architecture is characteristic for members of the ATP-binding cassette or ABC superfami...

Research paper thumbnail of Construction and characterization of a selectable multidrug resistance-glucocerebrosidase fusion gene

Cytokines and molecular therapy, 1996

Gene fusions can be employed to ensure concomitant expression of two different proteins under the... more Gene fusions can be employed to ensure concomitant expression of two different proteins under the same transcriptional control elements. We have synthesized a retroviral expression vector (pHaMG1) containing a human multidrug resistance (MDR1)-glucocerebrosidase (GC) chimeric gene inserted between the long terminal repeats of the Harvey murine sarcoma virus. When introduced into psi-CRE mouse fibroblasts, pHaMG1 conferred the drug-selectable multidrug resistance phenotype, and drug-resistant clones produced active human GC of about 60 kDa. Percoll gradient fractionation of homogenates prepared from transfectants confirmed correct targeting of P-glycoprotein to the plasma membrane and of GC to lysosomes. Although this construction was designed as a translational fusion of the MDR1 gene product, P-glycoprotein, and human GC, no evidence for a fusion protein was found in transfected cells, and an analysis of the RNAs transcribed from the integrated pHaMG1 retroviral vector suggests tha...

Research paper thumbnail of P-glycoproteins: mediators of multidrug resistance

Seminars in cell biology, 1993

Multidrug resistance represents a major obstacle to successful chemotherapy of metastatic disease... more Multidrug resistance represents a major obstacle to successful chemotherapy of metastatic disease. Elevated levels in cancer cells of the product of the multidrug resistance gene, P-glycoprotein or the multidrug transporter, have been associated with the development of simultaneous resistance to a great variety of amphiphilic cytotoxic drugs. P-glycoprotein is an integral plasma membrane protein which contains 12 putative transmembrane regions and two ATP binding sites. It confers multidrug resistance by functioning as an energy-dependent drug efflux pump. Here we describe recent studies on the biosynthesis, structure, function, and mechanism of action of P-glycoprotein which have provided insights into the complexity of this multifunctional transport system and revealed an additional chloride channel activity. The physiological role of P-glycoprotein, however, still remains to be elucidated.

Research paper thumbnail of Interaction of bioactive hydrophobic peptides with the human multidrug transporter

FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 1994

In this report we demonstrate that various biologically active hydrophobic peptide derivatives, e... more In this report we demonstrate that various biologically active hydrophobic peptide derivatives, e.g., proteinase inhibitors, chemoattractants, ionophores, enkephalins, and immunosuppressants, stimulate a membrane ATPase activity associated with the human multidrug transporter (MDR1). The stimulation of the MDR1-ATPase by these agents does not correlate with their known biochemical or pharmacological activities but rather with their hydrophobicity. The peptides that show high-affinity interaction with the MDR1-ATPase also interfere strongly with fluorescent dye extrusion catalyzed by the multidrug transporter in intact cells and some have been shown to reverse drug resistance in cultured cells. These data suggest that several hydrophobic peptides behave as substrates of the multidrug transporter and may be used to modulate the chemotherapy resistance of tumor cells.

Research paper thumbnail of Retroviral transfer of a chimeric multidrug resistance-adenosine deaminase gene

FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 1990

A fusion between a selectable multidrug resistance (MDR1) cDNA and an adenosine deaminase (ADA) c... more A fusion between a selectable multidrug resistance (MDR1) cDNA and an adenosine deaminase (ADA) cDNA concomitantly confers multidrug resistance and ADA activity on transfected cells. We have produced a Harvey murine sarcoma virus-derived, replication-defective, recombinant retrovirus to transduce this chimeric MDR-ADA gene efficiently into a great variety of cells. Infection with the MDR-ADA retrovirus conferred the multidrug resistance phenotype on drug-sensitive cells, therefore allowing selection in the presence of colchicine. Colchicine-resistant cells synthesized large amounts of a membrane-associated 210-kDa MDR-ADA fusion protein that preserved both MDR and ADA functional activities. To monitor expression of the chimeric gene in vivo, Kirsten virus-transformed NIH cells were infected with the MDR-ADA retrovirus, and after drug-selection, injected into athymic nude mice. Tumors developed that contained the bifunctionally active MDR-ADA fusion protein. When these mouse tumor ce...

Research paper thumbnail of A case study to illustrate a potential challenge for preclinical hypotension risk assessment by cardiovascular telemetry in conscious, normotensive rats in advance of definitive large animal telemetry studies

Journal of Pharmacological and Toxicological Methods, 2013

Research paper thumbnail of Characterization of Phosphorylation-defective Mutants of Human P-glycoprotein Expressed in Mammalian Cells

Journal of Biological Chemistry, 1996

To assess the role of phosphorylation of the human multidrug resistance MDR1 gene product P-glyco... more To assess the role of phosphorylation of the human multidrug resistance MDR1 gene product P-glycoprotein for its drug transport activity, phosphorylation sites within its linker region were subjected to mutational analysis. We constructed a 5A mutant, in which serines at positions 661, 667, 671, 675, and 683 were replaced by nonphosphorylatable alanine residues, and a 5D mutant carrying aspartic acid residues at the respective positions to mimic permanently phosphorylated serine residues. Transfection studies revealed that both mutants were targeted properly to the cell surface and conferred multidrug resistance by diminishing drug accumulation. In contrast to wild-type P-glycoprotein, the overexpressed 5A and the 5D mutants exhibited no detectable levels of phosphorylation, either in vivo following metabolic labeling of cells with [32P]orthophosphate or in vitro in phosphorylation assays with protein kinase C, cAMP-dependent protein kinase, or a P-glyco-protein-specific protein kinase purified from multidrug-resistant KB-V1 cells. These results reconfirm that the major P-glycoprotein phosphorylation sites are located within the linker region. Furthermore, the first direct evidence is provided that phosphorylation/dephosphorylation mechanisms do not play an essential role in the establishment of the multidrug resistance phenotype mediated by human P-glycoprotein.

Research paper thumbnail of Effects of phosphorylation of P-glycoprotein on multidrug resistance

Journal of Bioenergetics and Biomembranes, 1995

Cells expressing elevated levels of the membrane phosphoprotein P-glycoprotein exhibit a multidru... more Cells expressing elevated levels of the membrane phosphoprotein P-glycoprotein exhibit a multidrug resistance phenotype. Studies involving protein kinase activators and inhibitors have implied that covalent modification of P-glycoprotein by phosphorylation may modulate its biological activity as a multidrug transporter. Most of these reagents, however, have additional mechanisms of action and may alter drug accumulation within multidrug resistant cells independent of, or in addition to, their effects on the state of phosphorylation of P-glycoprotein. The protein kinase(s) responsible for P-glycoprotein phosphorylation has(ve) not been unambiguously identified, although several possible candidates have been suggested. Recent biochemical analyses demonstrate that the major sites of phosphorylation are clustered within the linker region that connects the two homologous halves of P-glycoprotein. Mutational analyses have been initiated to confirm this finding. Preliminary data obtained from phosphorylation- and dephosphorylation-defective mutants suggest that phosphorylation of P-glycoprotein is not essential to confer multidrug resistance.

Research paper thumbnail of Putative “MDR enhancer” is located on human chromosome 20 and not linked to theMDRI gene on chromosome 7

Genes, Chromosomes and Cancer, 1994

ABSTRACT The physiologic expression of the human multidrug resistance MDRI gene product P-glycopr... more ABSTRACT The physiologic expression of the human multidrug resistance MDRI gene product P-glycoprotein is controlled in a tissue- and cell-specific manner, but the regulatory mechanisms have not been characterized in great detail. Studies by Kohno et al. [(1990) J Biol Chem 265:19690–19696] suggested that a tissue-specific enhancer element located approximately 10 kb upstream from the major MDRI transcription start site may act to increase the levels of transcription in cultured adrenal and kidney cells. Using this putative “MDR enhancer” as a probe, we isolated a 14 kb DNA fragment from a genomic DNA library prepared from human fetal liver. The restriction map and partial nucleotide sequence of this DNA fragment were consistent with the previously described data obtained for a similar piece of genomic DNA derived from human placenta by Kohno et al. (ibid.). Pulsed-field gel electrophoresis of large genomic DNA fragments, however, showed that the DNA sequences, including the putative “MDR enhancer,” were not linked to the MDRI gene. Fluorescence in situ hybridization analysis revealed that this enhancer-like element is located on chromosome 20 at band q13.1 and is, therefore, distinct from the MDR locus on chromosome 7, band q21.1. Thus, this putative regulatory element does not modulate the tissue specificity of expression of the MDRI gene in vivo, but may play a role in the regulation of expression of another, so far unknown gene. Genes Chromosom Cancer 10:267–274 (1994). © 1994 Wiley-Liss, Inc.

Research paper thumbnail of Expression of the human multidrug transporter in insect cells by a recombinant baculovirus

Biochemistry, 1990

The plasma membrane associated human multidrug resistance (MDR1) gene product, known as the 170-k... more The plasma membrane associated human multidrug resistance (MDR1) gene product, known as the 170-kDa P-glycoprotein or the multidrug transporter, acts as an ATP-dependent efflux pump for various cytotoxic agents. We expressed recombinant human multidrug transporter in a baculovirus expression system to obtain large quantities and further investigate its structure and mechanism of action. MDRl cDNA was inserted into the genome of the Autographa californica nuclear polyhedrosis virus under the control of the polyhedrin promoter. Spodoptera frugiperda insect cells synthesized high levels of recombinant multidrug transporter 2-3 days after infection. The transporter was localized by immunocytochemical methods on the external surface of the plasma membranes, in the Golgi apparatus, and within the nuclear envelope. The human multidrug transporter expressed in insect cells is not susceptible to endoglycosidase

Research paper thumbnail of Bacterial expression of the linker region of human MDR1 P-glycoprotein and mutational analysis of phosphorylation sites

Biochemistry, 1995

Phosphorylation may play a role in modulating multidrug resistance by P-glycoprotein (P-gp). The ... more Phosphorylation may play a role in modulating multidrug resistance by P-glycoprotein (P-gp). The linker region between the two homologous halves of human P-gp harbors several serine residues which are phosphorylated by protein kinase C (PKC) in vitro. We used the glutathione S-transferase gene fusion system to express and purify a series of fusion proteins containing the relevant portion (residues 644-689) of the linker region of the human MDR1 gene product. The fusion proteins were subjected to in vitro phosphorylation and phosphopeptide mapping analysis to identify specific phosphorylation sites. On the basis of a mutational strategy in which individual serine residues were systematically replaced with nonphosphorylatable alanine residues, Ser-661 and Ser-667 were identified as major PKC sites and Ser-683 was identified as a minor PKC site. Ser-661 and Ser-667 were also found to be the primary sites of phosphorylation for a novel membrane-associated P-gp specific kinase isolated from the multidrug-resistant KB-V1 cell line. Individual phosphorylation sites were recognized independently of each other. These data show that the linker region of P-gp represents a target for multisite phosphorylation not only for PKC but also for the P-gp specific V1 kinase. Specific serine phosphorylation sites are identified, and evidence is presented that the V1 kinase has a specificity which overlaps, but is more restricted than, that of PKC. In addition, these studies also suggest that the use of GST fusion peptides may be applicable for the analysis of multisite and ordered protein phosphorylation in other systems.

Research paper thumbnail of Use of recombinant P-glycoprotein fragments to produce antibodies to the multidrug transporter

Biochemical and Biophysical Research Communications, 1990

Multidrug-resistance of human cancer cells may result from expression of a 170,000 dalton multidr... more Multidrug-resistance of human cancer cells may result from expression of a 170,000 dalton multidrug efflux pump called P-glycoprotein. To identify this multidrug transporter, and to study its structure and function, we have generated polyclonal rabbit antibodies against the amino-terminal and carboxy-terminal halves of the molecule using recombinant protein fragments produced in Escherichia coli. Two recombinant P-glycoprotein fragments, representing amino acids 140-228 and 919-1280, were overproduced in Escherichia coli by an inducible T7 expression system, gel-purified and injected into rabbits. Both antisera specifically immunoprecipitate 3H-azidopine and 35S-methionine labeled P-glycoprotein from multidrug-resistant cells and detect P-glycoprotein on Western blots with high sensitivity. Because these antisera were raised against epitopes in the amino- and carboxy-terminal halves of P-glycoprotein, they should be useful as research tools to define the function of these two halves of the molecule.

Research paper thumbnail of Cellular and biochemical characterization of VX-710 as a chemosensitizer

Anti-Cancer Drugs, 1997

VX-710 or (S)-N[2-Oxo-2-(3,4,5-trimethoxyphenyl)acetyl]-piperidine-2-carboxylic acid 1,7-bis(3-py... more VX-710 or (S)-N[2-Oxo-2-(3,4,5-trimethoxyphenyl)acetyl]-piperidine-2-carboxylic acid 1,7-bis(3-pyridyl)-4-heptyl ester, a novel non-macrocyclic ligand of the FK506-binding protein FKBP12, was evaluated for its ability to reverse P-glycoprotein-mediated multidrug resistance in vitro. VX-710 at 0.5-5 microM restored sensitivity of a variety of multidrug resistant cells to the cytotoxic action of doxorubicin, vincristine, etoposide or paclitaxel, including drug-selected human myeloma and epithelial carcinoma cells, and human MDR1 cDNA-transfected mouse leukemia and fibroblast cells. Uptake experiments showed that VX-710 at 0.5-2.5 microM fully restored intracellular accumulation of [14C]doxorubicin in multidrug resistant cells, suggesting that VX-710 inhibits the drug efflux activity of P-glycoprotein. VX-710 effectively inhibited photoaffinity labeling of P-glycoprotein by [3H]azidopine or [125I]iodoaryl azidoprazosin with EC50 values of 0.75 and 0.55 microM. Moreover, P-glycoprotein was specifically labeled by a tritiated photoaffinity analog of VX-710 and unlabeled VX-710 inhibited analog binding with an EC50 of 0.75 microM. VX-710 also stimulated the vanadate-inhibitable P-glycoprotein ATPase activity 2- to 3-fold in a concentration-dependent manner with an apparent k(a) of 0.1 microM. These data indicate that a direct, high-affinity interaction of VX-710 with P-glycoprotein prevents efflux of cytotoxic drugs by the MDR1 gene product in multidrug resistant tumor cells.

Research paper thumbnail of Preclinical profile of VX-710, a novel MDR chemosensitizer

Research paper thumbnail of Gene Transfer of Drug Resistance Genes Implications for Cancer Therapy

Annals of the New York Academy of Sciences, 1994

CAROL 0. CARDARELLIP AND IRA PASTANd bLaboratoty ofcell Biology, and dLaboratoty ofMokc&r B w h~

Research paper thumbnail of Inhibitors of Influenza Viruses Replication